DE3713801A1 - Printing forme material for lithoprinting - Google Patents

Abstract

The invention relates to the use of carbon as printing forme material for lithoprinting. This material allows reuse.

Description

The planographic printing, especially in the form of the off setdruckes, today has pressure over others process are of paramount importance. An essential The reason for this lies in the simple and rapid production of the printing form, for which no Material must be removed, but only superficial, imagewise influenced preparation NEN or coatings must be applied.

For the reasons given below, ge Up to now printing forms have generally not been required be reused. The prerequisite for this would be that the surface chemically and structurally in the same condition as before outgoing coating is located.

With the older planographic printing forms, the lithographic Stones, this could be achieved by the fact that sanded the surfaces in question were. A similar possibility arose later ter than offset printing using zinc plates was led. Here too the printing forms after use with the help of slurried Scouring powder and rolling balls in a vibrating machine be sanded until the surface again identical to that of the first use.

The aluminum used today in offset printing In contrast, plates have a ho to achieve a  print quality and a long service life specially refined, oxidic surface that by simply abrasion or something else Do not remove the top layer back into the original condition. Tries one, on the other hand, the traces of earlier printing bildes (these are pictorial pre parations mostly around organic, in the oxide upper surface sorbed high molecular substances, even sometimes also around metal layers) not mechanically, but to chemically detach or etch it off simultaneous damage to the refined Aluminum surface unavoidable.

The invention is therefore based on the object a printing form material for planographic printing the one that reuse after use equips that, in particular, a complete Ab solution of previous preparations without change its interface chemical and mechanical Properties allowed.

This object is achieved by the Ver Use of carbon as printing form material for solved the planographic printing.

Appropriate embodiments of the invention are Ge subject of the subclaims.

For the functioning of the flat printing process it comes less to the printing plate material than  rather on the type of covering surface Preparations or layers. What matters is especially the color acceptance behavior of the preparation th printing form surface when rolling over with pressure Color: The image areas must be colored the while the non-image areas the coloring have to refuse. It usually prepares no particular difficulty, the printing form keep color accepting. Much problematic shear is the color-repellent preparation that almost always by a superficial one, before every one staining to water film comes about, with this "dampening solution" usually others Substances are mixed.

Around that water film in the non-image areas to anchor the printing form stably, the "water leadership ", that is, the Surface must be prepared hydrophilically there. Here for is in the current state of the art Gumming helpful, d. H. a rubber film arabic. Also a chrome layer in the night partnership of copper, or one of the partners other metal pairs, this hydrophi effect.

From mechanical and chemical permanent Such preparations are now dependent on Durability of the dampening solution film and there with color rejection through non-image areas from. If the preparation fails, "toning" occurs  as a result of coloring non-image areas on. The relevant coatings must be stick to the load-bearing surface half as firmly, that when printing even a large number of copies by mechanical abrasion, still by chemical or electrochemical environmental influences removed can be.

If carbon is now used according to the invention as a printing form material, a surface oxidation of the material expediently takes place in order to create an adhesion possibility for the preparation coatings. In the experiments on which the invention is based, it was found that this surface oxidation can be achieved by treatment with oxidizing agents (for example chromium sulfuric acid), by anodic oxidation or by corona treatment in air. The success of such a superficial oxidation is immediately evident in an improved wettability against water. Layers suitable for planographic printing can be permanently anchored on a surface prepared in this way. According to the invention, it is expedient to use artificially produced carbon with a Mohs hardness between 5 and 9 . Glass-like carbon produced by carbonization of a spatially cross-linked synthetic resin and carbon fiber-reinforced carbon are particularly suitable.

The mechanical and chemical resistance  glassy carbon is invented for the Use according to the invention is extremely cheap: Although the hardness is not particularly high, he demands the processing of its surface dia sheathed tools. Even in the boiling hit It is made of hydrofluoric acid, perchloric acid, salpe tersäure, sulfuric acid, hydrochloric acid, phosphoric acid and their mixture is not measurable grabbed. Its good electrical conductivity leaves electrochemical surface treatment.

Carbonfa is used to anchor layers server-strength carbon due to its porö Its structure is particularly suitable.

On the oxidized surface of carbon produced printing form can be image areas or image-free areas, which for example as can be done by the inkjet process.

According to an expedient embodiment of the Erfin the transferred image areas or image free areas through deposited layers additionally stabilized. Applying this sta bilizing layers can by electro chemical deposition. As stabilize de layers can in particular metals and colloids are applied.

The carbon made according to the invention Printing form can be removed after removing previous upper  surface preparations can be used again. The removal of previous surface preparations can be applied using chemical agents (such as acid ren, alkalis, saline solutions, solvents) electrochemical methods, such as anodic oxides tion, or by a corona treatment.

The pressure using the carbon existing printing form can either di directly or indirectly (offset method).

The printing form can in particular as a plate or be formed as a cylinder jacket.

The invention is also based on the following case games explained:

Preparation of the surface

The carbon material is in an electric lysis cell that acts as an electrolyte with a little Na tron liquor contains pure water, meh for a few minutes at voltages between 4 and 12 V. switched anodically. The later printing form surface che is facing the counter electrode. The The effect of this pretreatment can be recognized by the Improvement of the wettability of the surface through water.

Transfer of image areas

According to the way an inkjet printer works  aqueous soap solution on the by anodic oxi dation prepared carbon surface splashes and dried. The surface is then with a solution from Gummiara common as gumming treated, dried and washed with water to wash. Druckfar be rolled on. It only adheres to those of the be dried areas.

Electrochemical deposition of stabilizing me tall layers One provides one by superficial oxidation pretreated carbon surface with a Stencil, e.g. B. from fat. Then you dive them Surface into a dilute aqueous copper sulfate Solution, weakly acidifies sulfur and switches at a voltage of approx. 3 V as the cathode to a copper anode. On the uncovered waiter areas of the carbon surface metallic copper. You remove the Stencil with gasoline, dries and rubberizes like common. The water-damp surface now takes off when rolling in the copper-plated areas color at.

Remove previous surface preparations

By treating with chrome sulfuric acid Completely destroy previous coatings without that the carbon material is attacked. To  the subsequent cleaning with water can on the surface image areas are transferred again. Metal layers, e.g. B. made of copper, can be anodic be replaced.

Claims (18)

1. Use of carbon as printing form ma material for planographic printing. 2. Printing form for planographic printing, characterized thereby records that they are essentially made of coals fabric exists. 3. Use according to claim 1, characterized net that artificially produced carbon with Mohs hardness between 5 and 9 applications finds. 4. Use according to claim 1, characterized net that glassy carbon application fin det. 5. Use according to claim 1, characterized net that carbon fiber reinforced carbon find. 6. Use according to claim 1, characterized net that a for the production of the printing form superficial oxidation of carbon mate riales takes place. 7. Use according to claim 6, characterized net that the oxidation by a corona treatment tion takes place. 8. Use according to claim 6, characterized  net that Bildstel on the oxidized surface len or non-image areas are transferred. 9. Use according to claim 8, characterized net that the transfer of the image points or the non-image areas according to the inkjet process ren is done. 10. Use according to claim 8, characterized records that the transmitted image points or non-image areas due to separated layers additional stabilization. 11. Use according to claim 10, characterized records that the stabilizing layers applied by electrochemical deposition will. 12. Use according to claim 10, characterized records that as stabilizing layers Metals are applied. 13. Use according to claim 10, characterized records that as stabilizing layers Colloids are applied. 14. Use according to claim 1, characterized records that the removal of previous surfaces chemical preparations using chemical Agents such as acids, bases, saline solutions, Lö means.   15. Use according to claim 1, characterized records that the removal of previous surfaces preparations by electrochemical me methods such as anodic oxidation. 16. Use according to claim 1, characterized records that the removal of previous surfaces preparations with a corona treatment he follows. 17. Use according to claim 1, characterized records that the print is either direct or indirectly (offset method). 15. Printing form according to claim 2, characterized net that they are designed as a cylinder jacket is.